KR20190077578A - Battery storage system and method thereof - Google Patents

Abstract

The present invention relates to a system for storage of a battery (3), said system comprising: at least one battery (3) having at least one battery cell and at least one battery control part (2); A central control means (1); The battery control unit 2 is connected to the central control unit 1 through a signal transmission system and the battery control unit 2 receives a voltage from the central voltage supply unit 5.

Description

Battery storage system and method thereof

The present invention relates to a system and method for storage of a battery according to the preamble of the patent independent claims.

Rechargeable batteries are being used more and more. Applications are, for example, electric vehicles in electric vehicles and / or hybrid vehicles, and / or stationary energy storage devices in, for example, wind power plants or solar power plants. If the battery needs to be replaced, it may be necessary to temporarily store the battery in order to allow the other application to continue using the battery in the future. Current batteries are packaged for storage and stored without direct monitoring.

The present invention relates to a system for storage of a battery, wherein the output capacity and function of the battery must be maintained during storage.

The key to the invention is that the system comprises one or more batteries with one or more battery cells and a battery control, a central control means and a central voltage supply,

The battery control unit is connected to the central control unit through a signal transmission system,

And the battery control unit is supplied with the voltage from the central voltage supply unit.

The background of the present invention is that the battery can be controlled and monitored by the local battery controller. The battery control unit receives the voltage from the central voltage supply unit. Thereby, the battery control unit does not receive the voltage from the battery itself during storage and can be operated regardless of the state of the battery.

The battery control section is controlled by the central control means. Preferably, the battery control section can be switched on and read out at regular time intervals by the central control means.

Accordingly, preferably, the state of the battery can be monitored at regular time intervals, and the load on the battery and the battery control unit and the deterioration resulting therefrom can be reduced.

Still other preferred embodiments of the invention are subject of the dependent claims.

According to a preferred embodiment, the battery control part comprises memory means for storing state data of the battery, in particular as follows.

- identification number and / or

- defect status and / or

- Capacity and / or

- charge status and / or

Cell voltage and / or

- Cell temperature.

In this case, preferably, the state data of the battery can be read by the battery control unit at regular time intervals and stored in the memory means. Preferably, the memory means is a non-volatile memory, such as EEPROM or flash memory, whereby the status data is available immediately after the battery control section is switched on.

In a preferred embodiment, the central control means is configured to evaluate and / or compare the state data of the battery with a threshold value, and when the threshold value is exceeded and / Lt; / RTI > Accordingly, the defective battery can be identified and displayed by the central control means. Defective batteries can be identified and sorted in the warehouse. Thereby reducing the cost of storing the warehouse.

Preferably,

- switch off of the battery and / or battery control, and / or

- charging the battery, and / or

Discharge of the battery, and / or

Rapid discharge of the battery, and / or

- activation of the safety mechanism of the battery, in particular the overpressure valve and / or the cooling mechanism.

Also preferably, the central voltage supply is formed as a low voltage supply, in particular as a 24V supply or a 12V supply. As a result, only the voltage necessary for the operation of the battery control unit is supplied. Complex high voltage supplies for the battery can be saved.

In another preferred embodiment, the system further comprises a charging device for charging and / or discharging the battery. Preferably the charging device is formed as a high voltage supply. In this case, the charging device is preferably switched on only when the battery is charged or discharged.

Preferably, the battery control part can be switched on and / or off by the central control part, and in particular the battery control part can be switched from the active state to the standby mode. Accordingly, the load on the battery control unit and the deterioration thereof can be reduced as compared with the continuous operation.

Preferably, the system of the present invention includes a receiving device having a battery disposed therein, and the receiving device has a contact point suitable for connecting the central control means and / or the central voltage supply and the battery control portion. Preferably, the contact point is formed as a plug-in connector member or a click connector member, whereby the connection between the central control means and / or the central voltage supply portion and the battery control portion can be executed quickly and safely.

According to yet another preferred embodiment, the system of the present invention comprises a plurality of batteries, each battery comprising a respective battery control section, each battery control section being connected to the central control means in a signal transmission manner. In this case, preferably, a plurality of batteries in the present system can be monitored and controlled by a single central control means.

Preferably, the battery control units are connected to the central control means by a bus system. Accordingly, the battery control units and the central control means are interconnected by a secure communication system.

Preferably, the bus system is formed as a master / slave system, in which case the central control means functions as a master and the battery controllers function as slaves. In this case, preferably, the battery control units can be controlled by the central control means, in particular switched on and / or switched off.

The essence of the invention in the method for storing the battery, in particular using a system according to any of the claims as described above, or as claimed in the present system, is that the method comprises the following method steps.

In the first method step, the central control means requests the battery control section to transmit the state data of the battery to the central control means,

- in a second method step, the battery control unit sends the requested state data to the central control means,

- in a third method step, the central control means evaluates the state data of the battery,

In a fourth method step, a safety measure is executed by the central control means when the state data of the battery exceeds and / or falls below a respective threshold threshold value.

In the method of the present invention, the background of the present invention is that the battery can be controlled and monitored by the local battery controller.

The battery control section is controlled by the central control means. Preferably, the battery control section can be read out at regular time intervals by the central control means.

Still other preferred embodiments of the present invention are subject of dependent claims with respect to the method.

Further, preferably, in the fifth method step, the battery control portion is deactivated by the central control means, and in particular, the battery control portion is switched from the active mode to the standby mode. Accordingly, the battery control section is switched on only when the central control section communicates with the battery control section or when the battery control section controls the battery.

To this end, preferably the battery control section is activated by the central control means before, or simultaneously with, the first method step.

In this case, preferably, the battery control section is switched from the standby mode to the active mode. In the standby mode, the battery controller is configured to receive commands, in particular wake-up signals, from the central control means.

The load of the battery and the battery control unit and the deterioration resulting therefrom may preferably be reduced as compared with the battery or battery control unit that continuously operates.

Preferably, the state data selected in the first method step is requested by the central control means. As a result, the transmission time of the status data can be shortened.

Preferably, in the second method step, the battery control unit reads the memory means of the battery control unit in which the state data of the battery is stored. Preferably the memory means is a non-volatile memory, such as EEPROM or flash memory, whereby the status data can be used immediately after the battery control section is switched on.

Preferably, in a third method step, the state data is compared, by the central control means, to a threshold value assigned to each state data type. To this end, the central control means comprises central memory means in which respective limits are stored.

Advantageously, in a fourth method step, the battery is switched off and / or discharged and / or fast discharged and / or charged and / or the safety mechanism of the battery is activated as a safety measure.

Preferably, the battery control unit is supplied with the voltage from the central voltage supply unit. Accordingly, the battery control unit does not receive a voltage from the battery itself during storage, and operates independently of the state of the battery.

In a preferred embodiment, the central control means charges and discharges the battery at regular time intervals, and the battery is charged to a first value below the maximum limit, followed by a discharge to a second value above the minimum limit. In this case, the minimum threshold value and the maximum threshold value, and the time interval between the two charging and discharging cycles are selected according to the state of the battery, for example, according to the degree and capacity of deterioration of the battery. Preferably, the effective life of the battery can be extended by controlled charging and discharging.

In the following paragraphs, the present invention is described on the basis of embodiments in which another aspect of the present invention can be specified, but the scope of the present invention is not limited thereto. Embodiments are shown in the drawings.

1 is a schematic diagram of a system according to the invention for storage of a battery.

In Fig. 1, a system according to the invention for storage of a battery 3 is shown. The system for storing a battery includes at least one battery 3, a central voltage supply 5, in particular a low voltage supply, a central control means 1 and at least one receiving device 4 for the battery 3 do.

Preferably, the system for storage of the battery 3 comprises a charging device 6, in particular a high voltage charging device, for charging and / or discharging the battery cell. The charging device 6 is electrically conductively connected to one or more batteries 3 by high voltage lines. The charging device 6 is connected to the central control means 1 through a data transmission system.

The receiving device 4 has a contact point suitable for connecting the central control means 1 and / or the central voltage supply portion 5 and the battery control portion 2. [ For example, the contact point is formed as a plug-in connector member for connecting the central control means 1 and the central voltage supply portion 5 to the battery control portion 2, particularly as a three-pin plug-in connector member. In this case, the plug-in connector member is connected to the central control unit 1 and the central voltage supply unit 5 so as to connect the battery control unit 2 and to charge the battery 3 And to connect the device 6 and the battery 3. [

The battery 3 here means a battery pack comprising a rechargeable battery, in particular an electrochemical battery cell, and / or a battery module comprising one or more electrochemical battery cells, and / or one or more battery modules. The battery cell may be formed as a lithium-based battery cell, particularly a lithium ion battery cell. Alternatively, the battery cell is formed as a lithium-polymer battery cell, or a nickel-metal hydride battery cell, or a lead acid battery cell, or a lithium-air battery cell, or a lithium-sulfur battery cell.

The battery 3 includes at least one battery control unit 2. [ The battery control unit 2 includes memory means configured to store state data of the battery 3, in particular, to store the following items.

- identification number and / or

- defect status and / or

- Capacity and / or

- charge status and / or

Cell voltage and / or

- Cell temperature.

The central voltage supply unit 5 is connected to the battery control unit 2 through an electric conduction method. Preferably, the central voltage supply 5 is formed as a central low voltage supply, in particular as a 12V supply.

The battery control unit 2 is configured to control all electrical functions of the system, in particular to control the charging and discharging of the battery 3 and / or to monitor the battery 3. [

The battery control unit 2 is connected to the central control unit 1 through a signal transmission system. The central control unit 1 is configured to switch on and / or switch off the battery control unit 2. [

The memory means of the battery control unit 2 can be read by the central control means 1. [ The data read out from the memory means can be evaluated by the evaluation means of the central control means 1 and can be statistically evaluated in particular.

The central control means 1 includes central memory means in which limit values for comparison with the state data of the battery 3 are stored. The central control means 1 is configured to compare the threshold value and the state data. If the threshold limit value is exceeded or undershot, the central control means 1 is configured to perform a safety function as a response thereto. For example,

- switch off of the battery (3) and / or the battery control part (2), and / or

Charging the battery 3, and / or

Discharge of the battery 3, and / or

High-speed discharge of the battery 3, and / or

- activation of the safety mechanism of the battery (3), in particular the overpressure valve and / or the cooling mechanism.

In a preferred embodiment, a system according to the present invention for storage of a battery 3 is configured to store a plurality of batteries 3. To this end, the batteries 3 are arranged in the receiving device 4. [

Each battery 3 includes at least one battery cell and one battery control unit 2 as described above.

The battery control units 2 are supplied with a voltage from the central voltage supply unit 5. To this end, the battery control units 2 are electrically connected to the central voltage supply unit 5, and the battery circuits are connected and arranged in parallel.

The central control unit 1 is connected to the battery control units 2 through a signal transmission system. Preferably, the central control means 1 and the battery control units 2 are interconnected by a bus system, in particular a master-slave bus system. To this end, the battery control units 2 are addressed with their identification numbers as slaves, and are called by the central control means 1 via the bus.

Preferably, the first bus telegram of the central control means 1 includes a request to switch on each addressed battery control 2. [ Preferably, each addressed battery control unit 2 is woken up by the first bus telegram from the standby mode to communicate with the central control means 1 via the bus.

The second bus telegram of the central control means 1 includes a request to switch off each battery control section 2. Preferably, by the second bus telegram, each addressed battery control unit 2 is switched to the standby mode after the communication with the central control means 1 is terminated.

The method according to the invention for the storage of the battery 3 comprises in particular the following method steps which are continuous in time.

In the zero method step, the battery control unit 2 of the battery 3 is activated by the central control unit 1, and in particular, the battery control unit 2 is switched from the standby mode to the active mode.

In the first method step, the central control means 1 requests the battery control section 2 to transmit the state data of the battery to the central control means 1. [ In this case, the selected state data or all available state data is requested by the central control means 1. [

Preferably, the zeroth method step and the first method step are executed simultaneously, in particular by a single bus telegram.

In the second method step, the battery control unit 2 reads the memory means and sends the requested state data to the central control means 1. [

In the third method step, the central control means 1 evaluates the state data of the battery 3, in particular statistically. Preferably, the state data is compared, by the central control means 1, to a threshold value assigned to each state data type, for example the battery charge state is compared with the minimum charge state.

In the fourth method step, a safety measure is executed by the central control means 1 when the state data of the battery 3 exceeds and / or falls below a respective threshold limit value. As a safeguard, the battery 3 may be switched off and / or discharged, and / or high-speed discharged and / or charged, and / or the safety mechanism of the battery may be activated, for example.

In the fifth method step, the battery control unit 2 is deactivated by the central control means 1, and in particular, the battery control unit 2 is switched from the active mode to the standby mode.

Preferably the method according to the invention is carried out at regular time intervals.

Preferably, the central control means 1 executes the charging and discharging cycles of the battery 3 at regular time intervals, in particular, regardless of whether the state data of the battery 3 is above the threshold value and / or below the threshold value . To this end, the battery 3 is charged to a first value, which is less than the maximum limit, at regular time intervals, according to its capacity and the degree of deterioration, and is then discharged to a second value exceeding the minimum limit.

Claims (19)

1. A battery storage system for storing a battery (3)
The system includes at least one battery 3 having one or more battery cells and a battery control unit 2, a central control unit 1, and a central voltage supply unit 5,
The battery control unit 2 is connected to the central control unit 1 through a signal transmission system,
Wherein the battery control unit (2) is supplied with a voltage from a central voltage supply unit (5). 2. The battery management system according to claim 1, wherein the battery control unit (2)
- identification number and / or
- defect status and / or
- Capacity and / or
- charge status and / or
Cell voltage and / or
- cell temperature
Characterized in that it comprises memory means for storage. 3. The method of claim 2,
The central control means 1 is configured to evaluate and / or compare the state data of the battery 3 with a threshold value,
Characterized in that the safety function can be executed by the central control means (1) when the value exceeds and / or falls below the limit value. The method of claim 3,
The safety function comprises:
- switch off of the battery (3) and / or the battery control part (2), and / or
Charging the battery 3, and / or
Discharge of the battery 3, and / or
High-speed discharge of the battery 3, and / or
Characterized by the activation of a safety mechanism of the battery (3), in particular an overpressure valve and / or a cooling mechanism. 5. A battery storage system according to any one of claims 1 to 4, characterized in that the central voltage supply (5) is formed as a low voltage supply, in particular as a 24V supply or as a 12V supply. 6. The method according to any one of claims 1 to 5,
The system comprises a charging device 6, in particular a high voltage charging device, for charging and / or discharging the battery 3,
The charging device 6 is connected to the central control means 1 through a data transmission method,
Characterized in that the charging device (6) is electrically conductively connected to the battery (3) by means of high voltage lines. The battery control unit (2) according to any one of claims 1 to 6, wherein the battery control unit (2) can be switched on and / or off by the central control unit (1) To the battery storage system. 8. The method according to any one of claims 1 to 7,
The system comprises a receiving device (4) in which a battery (3) is disposed,
Characterized in that the receiving device (4) has a contact point suitable for connecting the central control means (1) and / or the central voltage supply portion (5) and the battery control portion (2). 9. The method according to any one of claims 1 to 8,
The system comprises a plurality of batteries (3)
Each battery 3 includes a respective battery control unit 2,
Wherein each of the battery control units (2) is connected to the central control means (1) by a signal transmission method. 10. The method of claim 9,
The battery control units 2 are connected to the central control means 1 by a bus system,
Characterized in that the bus system is formed as a master / slave system, the central control means (1) functions as a master, and the battery control units (2) function as slaves. 10. A method for storing a battery for storage of a battery (3) using a battery storage system according to any one of claims 1 to 10, the method comprising the following method steps,
In the first method step, the central control means 1 requests the battery control section 2 of the battery 3 to transmit the state data of the battery 3 to the central control means 1,
In a second method step, the battery control unit 2 sends the requested state data to the central control means 1,
In the third method step, the central control means 1 evaluates the state data of the battery 3,
- in the fourth method step, a safety measure is executed by the central control means (1) when the status data of the battery (3) exceeds and / or falls below a respective threshold limit value. 12. A method as claimed in claim 11, characterized in that the battery control part (2) is activated by the central control means (1), in particular simultaneously with the first method step,
Wherein the battery control unit (2) switches from the standby mode to the active mode. 13. The method according to claim 11 or 12, characterized in that, in a fifth method step, the battery control unit (2) is deactivated by the central control means (1) , The battery storage method. 14. A method according to any one of claims 11 to 13, characterized in that state data selected in the first method step is requested. 15. The method according to any one of claims 11 to 14, characterized in that, in a second method step, the battery control section (2) reads the memory means of the battery control section (2) , How to store the battery. 16. Method according to any one of claims 11 to 15, characterized in that, in a third method step, the status data is compared, by the central control means (1), to a limit value assigned to each status data type. How to store the battery. 17. The method according to any one of claims 11 to 16, wherein in a fourth method step, the battery (3) is switched off and / or discharged and / or discharged at high speed and / , And / or the safety mechanism of the battery is activated. 18. The battery storage method according to any one of claims 11 to 17, wherein the battery control unit (2) is supplied with a voltage from the central voltage supply unit (5). 19. The method according to claim 18, wherein the central control means (1) charges and discharges the battery (3) at regular time intervals,
Characterized in that the battery (3) is charged to a first value which is less than a maximum limit, followed by a discharge to a second value which exceeds a minimum limit value.

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